The sedoheptulose kinase CARKL controls T-cell cytokine outputs and migration by promoting metabolic reprogramming.

Background: Immunometabolism is a crucial determinant of immune cell function, influencing cellular activation and differentiation through metabolic pathways. The intricate interplay between metabolism and immune responses is highlighted by the distinct metabolic programs utilized by immune cells to support their functions. Of particular interest is the pentose phosphate pathway (PPP), a key metabolic pathway branching out of glycolysis that plays a pivotal role in generating NADPH and pentose sugars crucial for antioxidant defense and biosynthesis. The sedoheptulose kinase Carbohydrate Kinase-like protein (CARKL), an enzyme involved in the PPP, emerges as a critical regulator of cell metabolism and was previously shown to play a role in macrophage function.

Methods: This study delves into the impact of CARKL expression on T-cell functionality, revealing dynamic alterations in response to cellular activation. Notably, CARKL overexpression leads to significant metabolic shifts in T cells, affecting mitochondrial respiration, ATP production, and inflammatory cytokine profiles. Furthermore, CARKL modulation influences T-cell motility by regulating chemokine receptor expression, particularly compromising CXCR3 expression and impairing T-cell migration in response to specific chemokine signals.

Conclusions: These findings underscore the multifaceted role of CARKL as a metabolic regulator shaping T-cell responses. Overall, our data reveal the complex regulatory mechanisms orchestrated by CARKL in T-cell function, with implications for immune regulation. Further exploration of the molecular interactions between CARKL and metabolic reprogramming in T cells could provide valuable insights into immune regulation and potential therapeutic strategies.